WHAT IS AN HERBARIUM AND HOW DOES IT HELP US PROTECT BIODIVERSITY?

When scientists study plants, they often collect, preserve, and store parts of the plants in a big collection called an herbarium. These plant specimens serve as proof that a species was growing in a certain place at a certain time. Herbaria (“herbaria” is the plural of herbarium) are where scientists describe new plant species and study how different species are related. Herbaria also contain lots of information about where certain plant species grow, what type of habitats species like, and at what time of year plants bloom and make fruits. Finally, herbaria are powerful tools for helping us understand how plants are affected by disturbances like habitat destruction and climate change. For all of these reasons, herbaria allow us to better understand and protect plant species all over the world. To continue benefitting from herbaria, we need to keep collecting plants and make these collections accessible to the world.

When scientists study plants, they often collect, preserve, and store parts of the plants in a big collection called an herbarium.These plant specimens serve as proof that a species was growing in a certain place at a certain time.Herbaria ("herbaria" is the plural of herbarium) are where scientists describe new plant species and study how di erent species are related.Herbaria also contain lots of information about where certain plant species grow, what type of habitats species like, and at what time of year plants bloom and make fruits.Finally, herbaria are powerful tools for helping us understand how plants are a ected by disturbances like habitat destruction and climate change.For all of these reasons, herbaria allow us to better understand and protect plant species all over the world.To continue benefitting from herbaria, we need to keep collecting plants and make these collections accessible to the world.

WHAT IS AN HERBARIUM?
When early naturalists and botanists collected plants from mountains in Nepal or the Amazon rainforest in Peru, they had no idea that their collections were going to help protect these habitats in the future.New and old plant collections have become powerful tools and can help us protect plants from things like habitat destruction and climate change.
When botanists study plants, they often collect specimens to take to an herbarium (plural = herbaria) for further study.These specimens HERBARIUM An organized collection, like a library, of plant specimens.Herbaria are often found in museums, botanical gardens, or universities and cared for by a dedicated sta .usually contain samples from each part of a plant including its leaves, stems, flowers and/or fruit, and sometimes even roots.In the herbarium, the specimens get flattened in a device called a plant press, dried in an oven, glued to sturdy paper, and stored in climate-controlled cabinets where they will be preserved for hundreds of years (Figure ).So, in other words herbaria are simply huge libraries of preserved plant specimens.Today, there are more than , herbaria around the world that together contain almost million plant specimens!studies.Voucher specimens are essential during the scientific process since they are proof that a plant was growing in a certain location at a particular time.Sometimes, vouchers are used as references by other scientists if they want to identify similar looking plants or when they want to describe new species.But, as you will see below, scientists are still discovering new uses for these voucher specimens many years after they were collected.
A good plant specimen includes important information about the plant, including its scientific name, exactly when and where the plant was collected, who collected it, and other notes such as the plant's size, its flower color, its scent, the way people use the plant, the type of habitat where it grew, and more.Scientists can use this information to know exactly where certain plant species grow, the time of year a species produces its flowers and fruit, and how species are related to each other.Herbarium specimens also serve as "time capsules" to tell us which plants used to grow in various areas and how the world is changing through time.
When picturing an herbarium in your mind, you might imagine dark and dusty rooms crammed with cabinets full of dried leaves.In fact, herbaria are very clean and active places of research, and many herbaria have recently begun the process of digitizing their DIGITIZING The process of converting physical objects or information, like a plant specimen, into a digital format.
collections [ ]. Today, virtual herbaria such as the New York Botanical Garden's Virtual Herbarium (https://sweetgum.nybg.org/science/vh/)contain photographs of millions of specimens along with information about the date and location of each collection.All this information is now being gathered into online databases where specimens from thousands of herbaria around the world are combined into publicly available webpages.By visiting just a single webpage (for example, https://www.gbif.org/),scientists can easily access information about almost million specimens, including more than million photographs [ ].This number is growing every day!Before we had virtual herbaria and online databases, scientists had to travel to herbaria in various countries and look through thousands of specimens to find the information they needed about the species they were studying.Now, anyone can access all this information from a computer or even a phone!Now that scientists have such easy access to so much information, they can make maps of where rare and endangered species are growing, they can study why some plant species live in some places but not others, they can look at the e ects of climate change on plants, and they can work to protect plants from threats like climate change and land use.

YOU CANNOT PROTECT A SPECIES IF YOU DO NOT KNOW WHAT IT IS
One of the most important uses of herbaria is taxonomy.Taxonomy is

TAXONOMY
The study of naming and classifying organisms in levels and groups, placing them in relationship to the larger tree of life.a field of science in which scientists describe new species and organize them into closely related groups.Specimens in herbaria are necessary when a scientist wants to describe a new plant species.For a long time, describing new species was done just by looking at the morphology

MORPHOLOGY
The physical form and external structure of things, such as flower color, leaf shape, and growth form.
(size, shape, and form) of the plants.These days, taxonomists also often use the genetic information in a plant's DNA [ ]. Certain sections of a species' DNA can be thought of as its unique fingerprint.By comparing the DNA between plant specimens, scientists can study how the plants are related to one another.In some cases, DNA may tell taxonomists that what they thought was a single species is actually kids.frontiersin.orgFortier et al.
several di erent similar looking species!Scientists can collect DNA from dried leaves by taking a small piece to a sterile lab, grinding it up, and mixing it with chemicals to extract the DNA.They then use a special machine called a sequencer to read the DNA's code.Herbaria are great places for scientists to collect DNA from plants of many species and from many places.

YOU CANNOT PROTECT A SPECIES IF YOU DO NOT KNOW WHERE IT IS
Scientists also use herbarium collections to map where species live.To map a species' distribution, scientists make a map of all the locations DISTRIBUTION The way a species is spread out over an area.A species' distribution relies on the environmental conditions it prefers.
where the species has been collected.Then, the scientists use the map and special computer programs to determine exactly what types of areas that species can grow in.In other words, does the plant species grow only in hot places or only in cold places?Only in dry or only in wet places?On mountainsides or in valleys?After scientists know which type of environment a plant species likes, they can identify other places that have the right conditions.In other words, they can guess where a species might grow even if no one has looked for the plant there yet.In some cases, scientists have used these guesses to find unknown populations of rare plant species.
Maps of where species live are also extremely valuable for conservation.Maps allow scientists to identify which species are threatened by development or habitat loss and which species are relatively safe.For example, if a forest is being cut down, it is likely that the species growing there are in trouble.This information can then be used to direct conservation e orts to help protect the species that need the most help.
Maps of where species live not only tell us how plants may be hurt by current threats like deforestation, but they can also help scientists predict how some plants will be a ected by new and future threats, like climate change [ ].As habitats change due to rising temperatures or changes in rainfall, to stay in their preferred conditions plant species will have to change where they grow (Figure ).

HERBARIA KEEP TRACK OF WHEN PLANTS BLOOM
Some researchers are also using herbarium specimens to look for changes in phenology, or the timing of flowering, fruiting, and leaf

PHENOLOGY
The timing of biological events such as springtime flower production.
production [ ]. Since the herbarium specimens usually include flowers (or fruit), the dates that these samples were collected tells us when a species produces flowers.If we look at the time of year that a species has been collected, we can see how climate change influences flowering times.Using this technique, we now know that many plant species from all over the world are making their leaves or flowering kids.frontiersin.orgearlier and earlier each year (Figure ).Some plants have been found to be making leaves or flowering weeks earlier now than they used to [ ].One explanation for earlier flowers is that global warming has made winters shorter, and spring is starting earlier each year.While a shorter winter and earlier flowers may seem nice, it can actually be bad news since many other species cannot match this new schedule.For example, imagine what will happen if trees start flowering earlier in the year but the bees that pollinate them do not wake up from their winter slumber until the trees' flowers have already wilted!

HERBARIA'S ROLE IN FUTURE RESEARCH
Plant specimens are being put to new uses in ways that early botanists and collectors never dreamed of.Additionally, these collections will continue to be used in ways we have not thought of yet.Herbarium collections are one of our greatest sources of information about plants and are also one of our most powerful tools in studying the impacts of habitat change and global warming.But, for herbaria to be useful, they need to have lots and lots of collections.For example, to make a good map of where a plant species lives, we need dozens or even hundreds of specimens.Unfortunately, many rare plant species are known by just one or two specimens.Plus, thousands of plant species have still never been collected at all! How many of these wonderful species will we lose before they can be collected, identified, and mapped?
How do we get more information so that we can save more species?First, we must collect more plant specimens.This means that we need more people-people like you-getting excited about botany BOTANY The branch of biology that deals with the study of plants.and collecting plants.Second, we need to continue photographing and digitizing the collections that herbaria already have, so that they are more accessible to people all over the world.Hopefully someday we will have enough information to protect all plant species!

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Figure

Figure
Figure (A) Red maple trees collected in March have flowers.(B) Collections made in April include fruits and seeds.(C) Collections made in May have young leaves.(D) Using herbarium specimens collected over the past years, scientists have learned that Red Maple trees make their leaves earlier in years when spring temperatures are hotter.Spring temperatures have been increasing due to global warming (notice how there are many more blue points in the top left part of the graph and more red points in the bottom right part of the graph).Each point represents one herbarium collection (Figure credits: G. Enríquez; [ ]).